study of identified particles oroginating from quark and gluon jets … · 2012. 1. 3. · 29.09.10...
TRANSCRIPT
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Sona Pochybova1,[email protected]
1 ELTE, Budapest, Hungary2MTA KFKI RMKI, Budapest, Hungary
Study of identified particles Study of identified particles oroginating from quark and gluon oroginating from quark and gluon
jets in proton-proton collisionsjets in proton-proton collisions
Outline:Outline:● IntroductionIntroduction● Q/G contribution to individual Q/G contribution to individual
spectraspectra● Particle spectra in different event Particle spectra in different event
shapesshapes
PhD. studies in collab with
Peter LevaiGergely G. Barnafoldi
mailto:[email protected]
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IntroductionIntroductionEmerging from the very early stages of collisions they are ideal to study
Early stages of collisionsHadronisation processes
Particle production
These questions can be addressed through These questions can be addressed through the the study of fragmentation properties of study of fragmentation properties of quark and gluon jetsquark and gluon jets in different event in different event shapes (2- and 3-jet events)shapes (2- and 3-jet events)
JetsJets are produced in hard scatterings of hard scatterings of partons of colliding partons of colliding
particles/ionsparticles/ions
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Quark and gluon jet carry different colour factors
The colour factors are proportional to the probability a probability a parton radiates soft gluonparton radiates soft gluon
Gluons branch more easily and are expected to form
Higher multiplicity jets
Broader jets
Jets with softer fragmentation function
Quark and Gluon JetsQuark and Gluon Jets
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Quark and gluon jet carry different colour factors
The colour factors are proportional to the probability a probability a parton radiates soft gluonparton radiates soft gluon
Gluons branch more easily and are expected to form
Higher multiplicity jets
Broader jets
Jets with softer fragmentation function
Quark and Gluon JetsQuark and Gluon JetsParticle production differences:
Gluons
Baryon productionBaryon production
Quarks
Meson productionMeson production
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Experimentally, jets are observed as Experimentally, jets are observed as showers of high-momentum particles showers of high-momentum particles in the detectors.in the detectors.
To identify such showers, one uses various jet-finding algorithmsjet-finding algorithms
● ConeCone● KTKT● Anti-kTAnti-kT
Event shape study:Event shape study:● anisotropical/isotropical anisotropical/isotropical
eventsevents● Di-Jet/Multi-Jet eventsDi-Jet/Multi-Jet events
cms.web.cern.ch
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Historical outlookHistorical outlook First studies looking at
properties of jets were conducted in ee++ee (LEP) (LEP)
Tevatron – pTevatron – ppp @ 2 TeV @ 2 TeV
Qualitatively, Qualitatively, differences were differences were
observed, however, observed, however, asymptotic limit was asymptotic limit was
not not
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RHIC
Away side jet suppression
⇒ Dramatic softening of jet fragmentation through rapid energy loss while traversing the medium – soft gluon radiation. Particle spectra are sensitive to such behaviour
RHIC – colliding HI; possibility to investigate matter formed in such collisions through modification of jet
Many interesting and unexpected observations
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mid pT hadron yield enhanced⇒⇒Coalescence of hard Coalescence of hard partons from jets with partons from jets with soft partons from soft partons from mediummedium
The observed ordering of RThe observed ordering of RAAAA of of
identified hadrons is consistent identified hadrons is consistent with predictions from with predictions from calculations including jet flavor calculations including jet flavor conversion in the hot dense conversion in the hot dense medium medium
COLOR CHARGE EFFECT OF PARTON
ENERGY LOSS
JET INTERACTION WITH MEDIUM
arXiv:0908.1766 (August 2009) J. Putschke, STAR
V. Greco, C.M. Ko, P. Levai, PRL90 (2003) 202302.
Wei Liu, Che Ming Ko, Ben-Wei ZhangInt.J.Mod.Phys.E16:1930-1936,2007.
http://www.slac.stanford.edu/spires/find/wwwhepau/wwwscan?rawcmd=fin+%22Liu%2C%20Wei%22http://www.slac.stanford.edu/spires/find/wwwhepau/wwwscan?rawcmd=fin+%22Ko%2C%20Che%20Ming%22http://www.slac.stanford.edu/spires/find/wwwhepau/wwwscan?rawcmd=fin+%22Zhang%2C%20Ben%2DWei%22
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Aim of our work:● We are looking at identified particle production based on whether We are looking at identified particle production based on whether
these are coming from quarks or gluonsthese are coming from quarks or gluons● We compare collision energies (RHIC, CDF, LHC)We compare collision energies (RHIC, CDF, LHC)● Simulations – PYTHIA Tune P0Simulations – PYTHIA Tune P0
● QCD processes:● QQ (+G)
● qq⇾qq● qq̅ → qq̅● gg → qq̅
● GG (+G)● qq̅ → gg● gg → gg
● QG (+G)● qg → qg
● Look at production w/o jet finding algotrithmLook at production w/o jet finding algotrithm● We distinguish between 2- and 3-jet events using the thrust We distinguish between 2- and 3-jet events using the thrust
variable variable
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Identified particle spectraIdentified particle spectra
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● Higher collision energy● QQ channel becomes
suppressed● GG becomes dominant
√sNN [TeV] QQ/Jet GG/Jet QG/Jet
0.2 27.3% 17.7% 55%
1.8 7.6% 49.7% 42.7%
7 5.3% 60% 34.7%
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Particle ratiosParticle ratios
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Antiparticle/particle ratios
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Antiparticle/particle ratios
QQ, QG:u ̅ and s suppressed w.r.t
u⇉ towards higher pT
antiparticle/particle ratio drops
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Antiparticle/particle ratios
Gluon production dominates spectra, difference in quark production vanish
⇉ ratios levels at 1
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p/π, p/K
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p/π, p/K● p/π, p/K ratios highest for GG channel (mid-pT)● All production channels combined
● Follow QG channel● Merging to GG value with collision energy
Which is consistent with GG channel contribution to individual hadron spectra:
GG channel mainly contributes to proton spectraGoing higher in pT the differences vanish
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Different point worth mentioning:
Monday; J-P Revol – p/π ratio underestimated by PYTHIA when compared to data
7 TeV – Gluon domination – proton production enhance w.r.t to pions
? PYTHIA tunes parameters may lead to underestimation of proton production in the gluon channel when looking at the full event
The gluon contribution to the ratios changes to lower values with energy (0.3 - 0.25).
Ratio from all prod.channels on the other hand at ~ TeV energies stays the same ( ~ 0.25).
! Important to look at separate prod.channels for tuning purposes as well.
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Jet algorithm implementation
Anti-kT algorithm (fastjet.fr)R = 0.7
Separating jets from the surronding event - ratio rises
7 TeV
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Experimental study of Q/G jetsExperimental study of Q/G jets• Using variable cuts based on MC
– Charged multiplicity (Herme's talk)– Average pT, radial energy distribution– All based on some prior assumptions in MC >>
BIASED Q/G SELECTIONMulti-jet events
– Additional hard gluon radiation– Might provide cross-checks for selection
based on MC
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Event shapesEvent shapesEvent shape selection:Event shape selection:
T > 0.9 – anisotropic (2-Jet like)T > 0.9 – anisotropic (2-Jet like)T < 0.9 -isotropic (3-Jet like)T < 0.9 -isotropic (3-Jet like)
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Ratios for all production channels3-Jet events – additional hard gluon radiationEffect ~ 20-40 %Effect stronger for pions
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Selecting on QQ channel makes the effect bigger- up to 60 % for pions
QQ (+G)QQ (+G)
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3-Jet yieldNtrig: 700 M. Eventsσ (inel): 69 mb
3-jet, pT > 10 GeV/c :: ~ 105
PYTHIA P0
Leading jet pT in 3-Jet eventsLeading jet pT in 3-Jet events
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SummarySummary• The presented analysis is suitable to study
fragmentation properties of quarks and gluons• Selection:
– QQ, GG, QGQQ, GG, QG– 2/3 Jet-like shape2/3 Jet-like shape
• Going to higher s√ NN – Sample becomes gluon dominatedSample becomes gluon dominated– differences between Antiparticle/particle differences between Antiparticle/particle
production vanishproduction vanish• Additional gluon radiation
– baryon/meson ratio influencedbaryon/meson ratio influenced
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